Digital card-structure

ABSTRACT

The present invention provides a structure for digital cards, which comprises a digital card main body, with the following features: contacts are attached to both sides; it furthermore possesses an electronic write-protection; wherein the contacts on both sides are used to raise the transfer efficiency, while the write-protection provides for a more secure possibility to define the card as write protected or write enabled.

BACKGROUND OF THE INVENTION

[0001] 1) Field of the Invention

[0002] The present invention provides a new structure for digital cards, which are equipped with double-sided contacts and an electronic write-protection.

[0003] 2) Description of the Prior Art

[0004] Digital cards, also known as smart cards or memory cards, form the newest generation of data storage media. Their features include their small size, a high storage volume and a fast transfer speed. These cards are therefore the ideal choice as storage and transport media for multimedia data.

[0005] For the structure of conventional digital cards, please refer to FIG. 1 and FIG. 1A. The digital card 10 comprises a main body 11, with said main body 11 equipped with a number of contacts attached to one side. To prevent the digital card 10 from overwriting data by mistake, the main body possesses a write-protection switch 20 made of plastic. This write-protection switch 20 uses a card hook 21 to hook up to an edge formed in an grove 13 of the main body 11. The write-protection switch 20 can be moved on an elevation 15 inside of the grove 13. The write protected or write enabled state of the digital card 10 is determined by the position of the write-protection switch 20.

[0006] Conventional digital cards have two weaknesses:

[0007] The contacts 12 are only attached to one side, therefore the amount of data which can be transferred is restricted, and the digital card is unable to use its full potential.

[0008] The write-protection switch 20 is made of plastic and will lose quality after long use, resulting in malfunctions of the card.

SUMMARY OF THE INVENTION

[0009] The aim of the present invention is to provide a structure for digital cards, which comprises a main body, to which contacts are attached on both sides, and which furthermore possesses an electronic write-protection, wherein the contacts on both sides are used to raise the transfer efficiency, while the write-protection provides for a more secure possibility to define the card as write protected or write enabled.

BRIEF DESCRIPTION OF THE DRAWINGS

[0010]FIG. 1 shows a full display of a conventional digital card.

[0011]FIG. 1A shows a display of the part labeled A-A in FIG. 1.

[0012]FIGS. 2A and 2B show three-dimensional displays of both sides of one practical example for the present invention.

[0013]FIG. 3A shows another three-dimensional display of one practical example for the present invention.

[0014]FIG. 3B shows a three-dimensional display for the parts on the back § side of the practical example shown in FIG. 3A.

[0015]FIG. 4 shows a full display of the practical example shown in FIG. 3.

[0016]FIG. 4A shows a display of the part labeled A-A in FIG. 4.

[0017]FIG. 4B shows a display of the part labeled B-B in FIG. 4.

[0018]FIG. 5A and FIG. 5B show three-dimensional displays of both sides of another practical example for the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0019] The present invention is now described in further detail through use of the attached pictures and examples of ideal structures.

[0020] On FIG. 2A and FIG. 2B there is a practical example shown for the structure of a digital card described by the present invention. The digital card 30 comprises a main body 31, said main body 31 has got contacts 32 a, 32 b on the rear and front sides. These contacts 32 a, 32 b are connected to the electronic circuit inside of the main body 31. The contacts 32 a, 32 b can also be attached in an order which places the upper and 2( ) lower contacts in different positions, to let the contacts 32 a, 32 b cover a transfer area on the digital card 30 as wide as possible and thus having the effect of raising the transfer speed of the digital card 30.

[0021] The main body 31 has furthermore got two deepenings 34, 35 on the front and back side, which can be used for labels or product information. On the upper edge of the main body 31, there is a grove 33, inside of which there is an edge 331. Said grove 33 and said edge 331 can be used to get a better grip on the digital card 30. Furthermore the main body 31 possesses a foldable edge 36, which is located on one of the lower edges of the main body 31, and which is connected to the main body 31 through a connecting piece 361, which stands of from the main body 31 in an angle of 45°. After leaving the factory, the foldable edge 36 is connected with the main body 31 of the digital card 30. The digital card 30 therefore takes on the shape of an rectangle, and can be used by card drives made for rectangle cards. If the foldable edge 36 is separated from the connecting part 361, the digital card 30 can be read by conventional card drives.

[0022] Please refer to FIG. 3A and FIG. 3B. These show another practical example for the structure of a digital card described by the present invention. The digital card 130 comprises a main body 131, said main body 131 has got contacts 132 a, 132 b on the rear and front sides. These contacts 132 a, 132 b are connected to the electronic circuit inside of the main body 131. The contacts 132 a, 132 b can also be attached in an order which places the upper and lower contacts in different positions, to let the contacts 132 a, 132 b cover a transfer area on the digital card 130 as wide as possible and thus having the effect of raising the transfer speed of the digital card 130.

[0023] The main body 131 has furthermore got two deepenings 134, 135 on the front and back side, which can be used for labels or product information. Furthermore the main body 131 possesses a foldable edge 136, which is located on one of the lower edges of the main body 131, and which is connected to the main body 131 through a connecting piece 1361, which stands of from the main body 131 in an angle of 45°. After leaving the factory, the foldable edge l36 is connected with the main body 131 of the digital card 130. The digital card 130 therefore takes on the shape of an rectangle, and can be used by card drives made for rectangle cards. If the foldable edge l36 is separated from the connecting part 1361, the digital card 130 can be read by conventional card drives.

[0024] Please refer to FIG. 3B. On this picture, there is the main body 131 shown, with the electronic write-protection 40 installed on the upper edge.

[0025] The electronic write-protection 40 is formed of a metallic cover. Inside of the write protection 40, there are card hooks 41, which grip into the grove 137 on the upper edge of the main body 131. This grove 137 possesses deepenings 1371, which are opposite to the card hooks 41 and which can take in these card hooks 41. After the write protection 40 is placed onto the grove 137, the card hooks 41 grip into the deepenings 1371, as shown on FIG. 4A. The card hooks 41 can be moved inside of the deepenings 1371 to bring the write protection 40 closer to the main body 131 or farther away from it. Thus the position of the write protection 40 is altered. Inside of the deepenings 1371 there is a heightening 1372, which is used to fix the card hooks 41 after the movement of the write protection 40 and which prevent the write protection 40 from changing its position. Furthermore, there are power connectors 138 fixed inside of the grove 1371. After the connection of the power connectors 138 with the write protection 40, the power circuit is broken and the digital card 130 is write-protected. If the power connectors 138 and the write protection 40 are separated again, the power circuit is once again closed, therefore the digital card 130 is rendered write-enabled (Please refer to FIG. 4B). Furthermore, the surface of the write protection 40 can be covered by a rough structure 42, like the structure shown on the picture, which consists of several rows of parallel ridges. This structure helps the user to move the write protection 40.

[0026] Please refer now to FIG. 5A and FIG. 5B. These show another practical example for the electronic write-protection 140 installed on the upper edge of the digital card 230. The digital card 230 comprises a main body 231, said main body 231 has got contacts 232 a, 232 b on the rear and front sides. These contacts 232 a, 232 b are connected to the electronic circuit inside of the main body 231. The contacts 232 a, 232 b can also be attached in an order which places the upper and lower contacts in different positions, to let the contacts 232 a, 232 b cover a transfer area on the digital card 230 as wide as possible and thus having the effect of raising the transfer speed of the digital card 230. The main body 231 has furthermore got two deepenings 234, 235 on the front and back side, which can be used for labels or product information. Furthermore the main body 231 possesses a foldable edge 236, which is located on one of the lower edges of the main body 231, and which is connected to the main body 231 through a connecting piece 2361, which stands of from the main body 231 in an angle of 45°. After leaving the factory, the foldable edge 236 is connected with the main body 231 of the digital card 230. The digital card 230 therefore takes on the shape of an rectangle, and can be used by card drives made for rectangle cards. If the foldable edge 236 is separated from the connecting part 2361, the digital card 230 can be read by conventional card drives.

[0027] The electronic write-protection 140 is formed of a metallic cover. This electronic write-protection 140 can be moved inside of the grove 237. Through change of the position of the write-protection 140, the electronic circuit is closed or open, which renders the digital card 230 write enabled or write protected. This function is similar to the one described in FIG. 4B. The surface of the write protection 140 can be covered by a rough structure 142, which helps the user to move the write protection 140. Furthermore, the main body 231 possesses a deepening 238, which is used to help the card ejection of the card drive. This function prevents the card from being ejected to fast, thus also presenting a slight improvement to the design of prior inventions.

[0028] The present invention provides a structure for digital cards, which includes contacts attached to both sides of the structure, and which furthermore possesses an electronic write-protection, wherein the contacts on both sides are used to raise the transfer efficiency, while the write-protection provides for a more secure possibility to define the card as write protected or write enabled. In summation of the foregoing section, while the invention herein has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various other changes in form and detail may be made without departing from the spirit and scope of the invention herein. 

1. A digital card structure, comprising one main body, with the following features: contacts on both sides of said main body, which are connected to the electrical circuit inside of said main body; and an electronic write-protection; wherein the electronic write-protection has got electrical contact with the electronic circuit inside of the main body, which can be used to open or close the electronic circuit through changes in the position of the write-protection, which results in the digital card being rendered write enabled or write protected.
 2. A digital card structure according to claim 1, wherein said contacts can be attached in an order which places the upper and lower contacts in different positions.
 3. A digital card structure according to claim 1, wherein the write-protection comprising a metallic cover, which fits into a grove on the upper edge of the main body, with the write-protection still being able to move forward and backward inside of said grove, and with said write-protection possessing card hooks which can hold the write-protection inside of the deepenings inside the groves, while there are electrical contacts installed inside the grove, which open the electrical circuit when the write-protection is moved forward, thus rendering the digital card write-protected, while pushing the write-protection backwards will close the electrical circuit, thus rendering the digital card write-enabled again.
 4. A digital card structure according to claim 3, wherein inside of the groves, which hold the card hooks of the write protection, there is a heightening, which is used to secure the write protection in its place and prevents the write protection from changing its position.
 5. A digital card structure according to claim 1, wherein the write protection consists of a metallic cover, which can be moved inside of a grove on the upper edge of the main body, and which opens or closes the electrical circuit through changes in the position of the write protection, thus rendering the digital card write-enabled or write-protected.
 6. A digital card structure according to claim 1, wherein the main body possesses a deepening, which is used to help the card ejection of the card drive by preventing the card from being ejected to fast.
 7. A digital card structure according to claim 1, wherein the main body possesses a foldable edge, which is located on one of the lower edges of the main body, and which is connected to the main body through a connecting piece, which stands of from the main body in an angle of 45°.
 8. A digital card structure according to claim 1, wherein the upper edge of the main body possesses a grove, inside of which there is an edge, which can be used to get a better grip on the digital card. 